CN213780516U - High-pixel panoramic camera lens - Google Patents
High-pixel panoramic camera lens Download PDFInfo
- Publication number
- CN213780516U CN213780516U CN202023248885.7U CN202023248885U CN213780516U CN 213780516 U CN213780516 U CN 213780516U CN 202023248885 U CN202023248885 U CN 202023248885U CN 213780516 U CN213780516 U CN 213780516U
- Authority
- CN
- China
- Prior art keywords
- lens
- image plane
- curvature radius
- plane
- spherical surface
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Landscapes
- Lenses (AREA)
Abstract
The utility model relates to a high pixel panoramic camera lens, the object space from camera lens is to image planes and is in proper order: the lens comprises a first lens, a second lens, a third lens, a diaphragm plate, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, a ninth lens and a tenth lens; BBAR films are plated on the image surfaces and the object surfaces of all the lenses; the diaphragm plate is provided with a diaphragm hole; the utility model discloses all do the coating of preventing light reflection to every optical lens piece and handle, absorbed and dispersed the inside stray light that produces of camera lens at to a great extent, make the stray light energy of image plane reduce by a wide margin. The utility model discloses a lens cone uses aluminum product AL6061, has both alleviateed weight, has improved the intensity of camera lens again. The utility model discloses the distortion of camera lens is little, can effectively take out the truest photo.
Description
Technical Field
The utility model relates to a camera lens, concretely relates to high pixel panoramic camera lens that stray light energy of image plane is few, can effectively take out truest photo for a long time high, the structure is simple relatively, image plane.
Background
Safety is a basic pursuit of people, after a certain economic foundation exists, the consciousness forms of people are also changed, and higher-level and wider safety requirements can be pursued gradually. Compared with the insurance market more than ten years ago, most people now have insurance consciousness, and the insurance is not so hard, which is the inevitable result of social progress. The same applies to the safety of automobiles, and the problems of existing automobiles are solved firstly, and then the safety problems in various aspects are solved, from driving safety to parking safety, parking safety and the like.
With the development of the automobile industry in China, the automobile navigation market is gradually mature, consumers are pursuing safety, convenience and use more and more, according to the trend, most automobile manufacturers in China have the intention and action of taking the panoramic looking-around system as standard configuration on luxury saloon cars, and the configuration is a trend of many automobiles in the future.
The defects of the traditional technology are as follows: (1) the lens manufactured by the traditional technology can generate ghost images when being shot under strong light; (2) the lens manufactured by the traditional technology has a small aperture, and the quality of the picture shot in a dark light environment is poor, so that the lens is not suitable for all-weather use; (3) the lens manufactured by the traditional technology has low strength, is used under relatively severe conditions, and is easy to damage.
The reasons for the above disadvantages are: (1) the lens of the camera is composed of a plurality of lenses, the lenses are made of materials such as glass or plastic, and if no special treatment is carried out, the surface of the lens can reflect about 5% of incident light. When strong light enters the lens, multiple reflections are generated inside each lens and the camera, so that the phenomenon that people see in actual shooting is ghost. (2) The lens is made into a large aperture and is limited by a plurality of factors, the larger the aperture is, the more complicated the lens is required for clear imaging, each lens structure has a limit aperture, the larger the aperture is, the more complicated the structure is, and the complicated structure brings a plurality of negative effects. Among them is the most influential: loss caused by multiple reflections; ② the requirement of assembly precision is very high.
SUMMERY OF THE UTILITY MODEL
To the above problem, an object of the present invention is to provide a high-pixel panoramic camera lens with high imaging quality, relatively simple structure, less stray light energy on image plane, and effective shooting of the truest photo.
The utility model discloses a solve above-mentioned technical problem through following technical scheme: a high pixel panoramic camera lens, comprising: the lens comprises a first lens, a second lens, a third lens, a fourth lens, a diaphragm plate, a fifth lens, a sixth lens, a seventh lens, an eighth lens, a ninth lens and a tenth lens.
The object space to the image plane of the camera lens are as follows: the lens comprises a first lens, a second lens, a third lens, a fourth lens, a diaphragm plate, a fifth lens, a sixth lens, a seventh lens, an eighth lens, a ninth lens and a tenth lens.
BBAR films are plated on the image surface and the object surface of the first lens, the second lens, the third lens, the fourth lens, the fifth lens, the sixth lens, the seventh lens, the eighth lens, the ninth lens and the tenth lens.
The diaphragm plate is provided with a diaphragm hole; the diaphragm plate is positioned between the third mirror and the fourth mirror.
After the third lens and the second lens are installed, step parts matched with the outer frame are formed on the image surface of the second lens by the third lens and the second lens, and the radial length of the second lens is longer than that of the third lens.
The radial length of the third lens is equal to the radial length of the fourth lens.
The image surface of the first lens is provided with an inclined surface part matched with the outer frame.
The image surface of the second lens is provided with an inclined surface part matched with the outer frame.
The object plane of the third lens is provided with a step part matched with the outer frame.
After the fifth lens and the sixth lens are installed, step parts matched with the outer frame are formed on the object surface of the fifth lens and the sixth lens, and the radial length of the seventh lens is equal to that of the sixth lens.
The object plane of the seventh lens is provided with an inclined plane part matched with the outer frame.
The tenth lens is cover glass.
In a specific embodiment of the present invention, the object plane of the first lens is a spherical surface, the curvature radius is 22.0000mm, and the center thickness of the first lens is 1.850 mm; the image plane of the first lens is a spherical surface, the curvature radius is 48.46000mm, and the central vertex of the image plane of the first lens is 3.626mm away from the central vertex of the object plane of the second lens.
In a specific embodiment of the present invention, the object plane of the second lens is a spherical surface, the curvature radius is 12.00mm, and the center thickness of the second lens is 0.700 mm; the image plane of the second lens is a spherical surface, the curvature radius is-4.65123 mm, and the distance between the central vertex of the image plane of the second lens and the central vertex of the object plane of the third lens is 4.12 mm.
In a specific embodiment of the present invention, the object plane of the third lens is a spherical surface, the curvature radius is 18.7697mm, and the center thickness of the third lens is 0.750 mm; the image plane of the third lens is a spherical surface, the curvature radius is-4.7697 mm, and the distance between the central vertex of the image plane of the third lens and the central vertex of the object plane of the fourth lens is 0.750 mm.
In a specific embodiment of the present invention, the object plane of the fourth lens is a spherical surface, the curvature radius is 12.308mm, and the center thickness of the fourth lens is 5.00 mm; the image plane of the fourth lens is a spherical surface, the curvature radius is-12.1390 mm, and the distance between the central vertex of the image plane of the fourth lens and the central vertex of the object plane of the fifth lens is 1.850 mm.
In a specific embodiment of the present invention, the object plane of the fifth lens is a spherical surface, the curvature radius is 10.000mm, and the center thickness of the fifth lens is 2.452 mm; the image plane of the fifth lens is a spherical surface, the curvature radius is 3.45mm, and the distance from the central vertex of the image plane of the fifth lens to the central vertex of the object plane of the sixth lens is 0.
In a specific embodiment of the present invention, the object plane of the sixth lens is a spherical surface, the curvature radius is-3.45 mm, and the center thickness of the sixth lens is 0.500 mm; the image plane of the sixth lens is a spherical surface, the curvature radius is-7.6 mm, and the distance from the center vertex of the image plane of the sixth lens to the center vertex of the object plane of the seventh lens is 0.47 mm.
In a specific embodiment of the present invention, the object plane of the seventh lens is a spherical surface, the curvature radius is 50.0083mm, and the center thickness of the seventh lens is 1.375 mm; the image plane of the seventh lens is a spherical surface, the curvature radius is 7.5264mm, and the distance between the central vertex of the image plane of the seventh lens and the central vertex of the object plane of the eighth lens is 2.375 mm.
In a specific embodiment of the present invention, the object plane of the eighth lens is a spherical surface, the curvature radius is 16.5640mm, and the center thickness of the eighth lens is 1.50 mm; the image plane of the eighth lens is a spherical surface, the curvature radius is 70.5640mm, and the distance between the central vertex of the image plane of the eighth lens and the central vertex of the object plane of the ninth lens is 0.1 mm.
In the embodiment of the present invention, the object plane and the image plane of the ninth lens are both planes, the central thickness of the ninth lens is 0.5500mm, the object plane and the image plane of the tenth lens are both planes, and the central thickness of the tenth lens is 0.5500 mm.
The utility model discloses an actively advance the effect and lie in: the utility model provides a high pixel panoramic camera lens has following advantage: the utility model discloses all do the coating processing of preventing the light reflection to every optical lens piece, plate BBAR membrane in order to reduce the reverberation on the optical mirror surface, absorbed and dispersed the inside stray light that produces of camera lens at to a great extent, make the stray light energy on image plane reduce by a wide margin.
The utility model discloses a lens cone uses aluminum product AL6061, has both alleviateed weight, has improved the intensity of camera lens again.
The utility model discloses the structure that makes the camera lens is simple relatively, even if it is at overcast and rainy day, night, its imaging quality also can effectively be guaranteed.
The utility model discloses can pass through the reliability test of on-vehicle usage, waterproof dustproof grade reaches IP 69.
The utility model discloses the distortion of camera lens is little, can effectively take out the truest photo.
The utility model discloses the light ring can increase the luminous flux greatly, reduces the depth of field, makes the picture brighter, does benefit to the night scene and shoots.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is an enlarged view of fig. 1 at a.
Fig. 3 is an enlarged view of fig. 1 at B.
The utility model discloses the name that well reference numeral corresponds:
the lens comprises a first lens 1, a second lens 2, a third lens 3, a fourth lens 4, a fifth lens 5, a sixth lens 6, a seventh lens 7, an eighth lens 8, a ninth lens 9, a tenth lens 10 and a diaphragm plate 11.
Detailed Description
The following provides a preferred embodiment of the present invention with reference to the accompanying drawings to explain the technical solutions of the present invention in detail.
Fig. 1 is the overall structure schematic diagram of the utility model, fig. 2 is the a of fig. 1 and locates the enlargedly, fig. 3 is the B of fig. 1 and locates the enlargedly, as shown in fig. 1-3, the utility model provides a high pixel panoramic camera lens, including first lens 1, second lens 2, third lens 3, fourth lens 4, diaphragm plate 11, fifth lens 5, sixth lens 6, seventh lens 7, eighth lens 8, ninth lens 9, tenth lens 10.
The object space to the image plane of the camera lens are as follows: the lens comprises a first lens 1, a second lens 2, a third lens 3, a fourth lens 4, a diaphragm plate 11, a fifth lens 5, a sixth lens 6, a seventh lens 7, an eighth lens 8, a ninth lens 9 and a tenth lens 10.
BBAR films are plated on the image surface and the object surface of the first lens, the second lens, the third lens, the fourth lens, the fifth lens, the sixth lens, the seventh lens, the eighth lens, the ninth lens and the tenth lens.
The diaphragm plate is provided with a diaphragm hole; the diaphragm plate is positioned between the third mirror and the fourth mirror.
After the third lens and the second lens are installed, step parts matched with the outer frame are formed on the image surface of the second lens by the third lens and the second lens, and the radial length of the second lens is longer than that of the third lens.
The radial length of the third lens is equal to the radial length of the fourth lens.
The image surface of the first lens is provided with an inclined surface part matched with the outer frame.
The image surface of the second lens is provided with an inclined surface part matched with the outer frame.
The object plane of the third lens is provided with a step part matched with the outer frame.
After the fifth lens and the sixth lens are installed, step parts matched with the outer frame are formed on the object surface of the fifth lens and the sixth lens, and the radial length of the seventh lens is equal to that of the sixth lens.
The object plane of the seventh lens is provided with an inclined plane part matched with the outer frame.
The tenth lens is cover glass.
The object plane of the first lens is a spherical surface, the curvature radius is 22.0000mm, and the center thickness of the first lens is 1.850 mm; the image plane of the first lens is a spherical surface, the curvature radius is 48.46000mm, and the central vertex of the image plane of the first lens is 3.626mm away from the central vertex of the object plane of the second lens.
The object surface of the second lens is a spherical surface, the curvature radius is 12.00mm, and the center thickness of the second lens is 0.700 mm; the image plane of the second lens is a spherical surface, the curvature radius is-4.65123 mm, and the distance between the central vertex of the image plane of the second lens and the central vertex of the object plane of the third lens is 4.12 mm.
The object plane of the third lens is a spherical surface, the curvature radius is 18.7697mm, and the center thickness of the third lens is 0.750 mm; the image plane of the third lens is a spherical surface, the curvature radius is-4.7697 mm, and the distance between the central vertex of the image plane of the third lens and the central vertex of the object plane of the fourth lens is 0.750 mm.
The object plane of the fourth lens is a spherical surface, the curvature radius is 12.308mm, and the center thickness of the fourth lens is 5.00 mm; the image plane of the fourth lens is a spherical surface, the curvature radius is-12.1390 mm, and the distance between the central vertex of the image plane of the fourth lens and the central vertex of the object plane of the fifth lens is 1.850 mm.
The object plane of the fifth lens is a spherical surface, the curvature radius is 10.000mm, and the center thickness of the fifth lens is 2.452 mm; the image plane of the fifth lens is a spherical surface, the curvature radius is 3.45mm, and the distance from the central vertex of the image plane of the fifth lens to the central vertex of the object plane of the sixth lens is 0.
The object plane of the sixth lens is a spherical surface, the curvature radius is-3.45 mm, and the center thickness of the sixth lens is 0.500 mm; the image plane of the sixth lens is a spherical surface, the curvature radius is-7.6 mm, and the distance from the central vertex of the image plane of the sixth lens to the central vertex of the object plane of the seventh lens is 0.47 mm.
The object plane of the seventh lens is a spherical surface, the curvature radius is 50.0083mm, and the center thickness of the seventh lens is 1.375 mm; the image plane of the seventh lens is a spherical surface, the curvature radius is 7.5264mm, and the distance between the central vertex of the image plane of the seventh lens and the central vertex of the object plane of the eighth lens is 2.375 mm.
The object plane of the eighth lens is a spherical surface, the curvature radius is 16.5640mm, and the center thickness of the eighth lens is 1.50 mm; the image plane of the eighth lens is a spherical surface, the curvature radius is 70.5640mm, and the distance between the central vertex of the image plane of the eighth lens and the central vertex of the object plane of the ninth lens is 0.1 mm.
The object plane and the image plane of the ninth lens are both planes, the center thickness of the ninth lens is 0.5500mm, the object plane and the image plane of the tenth lens are both planes, and the center thickness of the tenth lens is 0.5500 mm.
The following is a specific example of implementation:
description of the drawings: hereinafter, the lens 1 denotes a first lens 1, the lens 2 denotes a second lens 2, the lens 3 denotes a third lens 3, the lens 4 denotes a fourth lens 4, the lens 5 denotes a fifth lens 5, the lens 6 denotes a sixth lens 6, the lens 7 denotes a seventh lens 7, the lens 8 denotes an eighth lens 8, the lens 9 denotes a ninth lens 9, and the lens 10 denotes a tenth lens 10.
The surface 1 is the object plane of the lens 1, the surface is a spherical surface, the curvature radius is 22.0000, the distance from the center vertex of the next surface (the image plane of the lens 1) is 1.850mm, namely the center thickness of the lens 1 is 1.850mm, the refractive index is 1.72600, and the Abbe coefficient is 54.42.
The surface 2 is the image surface of the lens 1, which is a spherical surface with a radius of curvature of 48.46000 and is 3.626mm away from the central vertex of the next surface (object surface of the lens 2).
The surface 3 is the object plane of the lens 2, the surface is a curved surface, the curvature radius is 12.00, the distance from the center vertex of the next surface (the image plane of the lens 2) is 0.700mm, namely the center thickness of the lens 2 is 0.700mm, the refractive index is 1.91464, and the Abbe coefficient is 35.256.
The surface 4 is the image surface of the lens 2, which is spherical, has a radius of curvature of-4.65123 and is 4.12mm from the central vertex of the next surface (the object surface of the lens 3).
The surface 5 is the object plane of the lens 3, the surface is a curved surface, the curvature radius is 18.7697, the distance from the central vertex of the next surface (the image plane of the lens 3) is 0.750mm, namely the central thickness of the lens 3 is 0.750mm, the refractive index is 1.6066, and the Abbe coefficient is 65.51.
The surface 6 is the image surface of the lens 3, the surface is a curved surface, the curvature radius is-4.7697, and the distance from the central vertex of the next surface (the object surface of the lens 4) is 0.750 mm.
The surface 7 is the object plane of the lens 4, the surface is a spherical surface, the curvature radius is 12.308, the distance from the central vertex of the next surface (the image plane of the lens 4) is 5.00mm, namely the central thickness of the lens 3 is 5.00mm, the refractive index is 1.9166, and the Abbe coefficient is 35.51.
The surface 8 is the image plane of the lens 4, which is spherical, has a radius of curvature of-12.1390, and is 1.850mm from the central vertex of the next surface (the object plane of the lens 5).
The surface 9 is the object plane of the lens 5, the surface is a spherical surface, the curvature radius is 10.000, the distance from the vertex of the image plane center of the lens 5 on the next surface is 2.452mm, namely the center thickness of the lens 5 is 2.452mm, the refractive index is 1.6066, and the Abbe coefficient is 65.38.
The surface 10 is the image surface of the lens 5, the distance between the surface and the object surface of the lens 6 is 0, and the curvature radius of the surface is the same, so that the surface 10 is the image surface of the lens 5 and the object surface of the lens 6, the surface is a spherical surface, the curvature radius is-3.45 mm, the distance from the next surface (the image surface of the lens 6) is 0.500mm, namely the center thickness of the lens 6 is 0.500mm, the refractive index is 1.7466, and the Abbe series 28.7873.
The surface 11 is the image plane of the lens 6, which is spherical, and the curvature radius is-7.6 mm, and is 0.47mm away from the next surface (the image plane of the lens 7).
The surface 12 is the object surface of the lens 7, the surface is a spherical surface, the curvature radius is 50.0083, the distance from the center vertex of the next surface is 1.375mm, namely the center thickness of the lens 7 is 1.375mm, the refractive index is 1.7466, and the Abbe system is 52.7873.
The surface 13 is the image surface of the lens 7, which is spherical with a radius of curvature of 7.5264 and a distance of 2.375mm from the center vertex of the next surface.
The surface 14 is the object plane of the lens 8, the surface is a spherical surface, the curvature radius is 16.5640, the distance from the center vertex of the next surface (the image plane of the lens 8) is 1.50, namely the center thickness of the lens 8 is 1.50mm, the refractive index is 1.6167, and the Abbe coefficient is 63.3123.
The surface 15 is the image plane of the lens 8, which is spherical, with a radius of curvature of 70.5640, and is 0.1mm from the central vertex of the next surface (object plane of the lens 9).
The surface 16 is the object plane of the lens 9, the surface is a plane, the curvature radius is infinite, the distance from the center vertex of the next surface (the image plane of the lens 9) is 0.5500mm, namely the center thickness of the lens 9 is 0.5500mm, the refractive index is 1.636797, and the Abbe coefficient is 23.5323.
The surface 17 is the image surface of the lens 9, the surface is a plane, the curvature radius is infinite, and the distance from the next surface (a chip protection glass object surface) is 1.0 mm.
Surface 18 the object plane of the lens 10, which is a plane, has an infinite radius of curvature, and is 0.50mm from the next surface (the lens image plane).
Surface 19 is the lens image plane.
The object plane and the image plane of the ninth lens are both planes, the center thickness of the ninth lens is 0.5500mm, the object plane and the image plane of the tenth lens are both planes, and the center thickness of the tenth lens is 0.5500 mm.
The utility model discloses all do the coating processing of preventing the light reflection to every optical lens piece, plate BBAR membrane in order to reduce the reverberation on the optical mirror surface, absorbed and dispersed the inside stray light that produces of camera lens at to a great extent, make the stray light energy on image plane reduce by a wide margin.
The utility model discloses a lens cone uses aluminum product AL6061, has both alleviateed weight, has improved the intensity of camera lens again.
The utility model discloses make the structure of camera lens simple relatively. Even if it is in overcast and rainy day, night, its formation of image quality also can obtain effectively guaranteeing.
The utility model discloses can pass through the reliability test of on-vehicle usage, waterproof dustproof grade reaches IP6K9K
The utility model discloses the distortion of camera lens is little, can effectively take out the truest photo.
The utility model discloses the light ring can increase the light flux greatly, reduces the depth of field, makes the picture brighter.
The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims and their equivalents.
Claims (10)
1. A high pixel panoramic camera lens, characterized in that: the high-pixel panoramic camera lens includes: the lens comprises a first lens, a second lens, a third lens, a fourth lens, a diaphragm plate, a fifth lens, a sixth lens, a seventh lens, an eighth lens, a ninth lens and a tenth lens;
the object space to the image plane of the camera lens are as follows: the lens comprises a first lens, a second lens, a third lens, a fourth lens, a diaphragm plate, a fifth lens, a sixth lens, a seventh lens, an eighth lens, a ninth lens and a tenth lens;
BBAR films are plated on the image surface and the object surface of the first lens, the second lens, the third lens, the fourth lens, the fifth lens, the sixth lens, the seventh lens, the eighth lens, the ninth lens and the tenth lens;
the diaphragm plate is provided with a diaphragm hole;
the diaphragm plate is positioned between the third lens and the fourth lens;
after the third lens and the second lens are installed, step parts matched with the outer frame are formed on the image surface of the second lens by the third lens and the second lens, and the radial length of the second lens is longer than that of the third lens;
the radial length of the third lens is equal to that of the fourth lens;
the image surface of the first lens is provided with an inclined surface part matched with the outer frame;
the image surface of the second lens is provided with an inclined surface part matched with the outer frame;
the object surface of the third lens is provided with a step part matched with the outer frame;
after the fifth lens and the sixth lens are installed, step parts matched with the outer frame are formed on the object surface of the fifth lens and the sixth lens, and the radial length of the seventh lens is equal to that of the sixth lens;
the object surface of the seventh lens is provided with an inclined surface part matched with the outer frame;
the tenth lens is cover glass.
2. The high pixel panoramic camera lens of claim 1, wherein: the object plane of the first lens is a spherical surface, the curvature radius is 22.0000mm, and the center thickness of the first lens is 1.850 mm; the image plane of the first lens is a spherical surface, the curvature radius is 48.46000mm, and the central vertex of the image plane of the first lens is 3.626mm away from the central vertex of the object plane of the second lens.
3. The high pixel panoramic camera lens of claim 1, wherein: the object surface of the second lens is a spherical surface, the curvature radius is 12.00mm, and the center thickness of the second lens is 0.700 mm; the image plane of the second lens is a spherical surface, the curvature radius is-4.65123 mm, and the distance between the central vertex of the image plane of the second lens and the central vertex of the object plane of the third lens is 4.12 mm.
4. The high pixel panoramic camera lens of claim 1, wherein: the object plane of the third lens is a spherical surface, the curvature radius is 18.7697mm, and the center thickness of the third lens is 0.750 mm; the image plane of the third lens is a spherical surface, the curvature radius is-4.7697 mm, and the distance between the central vertex of the image plane of the third lens and the central vertex of the object plane of the fourth lens is 0.750 mm.
5. The high pixel panoramic camera lens of claim 1, wherein: the object plane of the fourth lens is a spherical surface, the curvature radius is 12.308mm, and the center thickness of the fourth lens is 5.00 mm; the image plane of the fourth lens is a spherical surface, the curvature radius is-12.1390 mm, and the distance between the central vertex of the image plane of the fourth lens and the central vertex of the object plane of the fifth lens is 1.850 mm.
6. The high pixel panoramic camera lens of claim 1, wherein: the object plane of the fifth lens is a spherical surface, the curvature radius is 10.000mm, and the center thickness of the fifth lens is 2.452 mm; the image plane of the fifth lens is a spherical surface, the curvature radius is 3.45mm, and the distance from the central vertex of the image plane of the fifth lens to the central vertex of the object plane of the sixth lens is 0.
7. The high pixel panoramic camera lens of claim 1, wherein: the object plane of the sixth lens is a spherical surface, the curvature radius is-3.45 mm, and the center thickness of the sixth lens is 0.500 mm; the image plane of the sixth lens is a spherical surface, the curvature radius is-7.6 mm, and the distance from the center vertex of the image plane of the sixth lens to the center vertex of the object plane of the seventh lens is 0.47 mm.
8. The high pixel panoramic camera lens of claim 1, wherein: the object plane of the seventh lens is a spherical surface, the curvature radius is 50.0083mm, and the center thickness of the seventh lens is 1.375 mm; the image plane of the seventh lens is a spherical surface, the curvature radius is 7.5264mm, and the distance between the central vertex of the image plane of the seventh lens and the central vertex of the object plane of the eighth lens is 2.375 mm.
9. The high pixel panoramic camera lens of claim 1, wherein: the object plane of the eighth lens is a spherical surface, the curvature radius is 16.5640mm, and the center thickness of the eighth lens is 1.50 mm; the image plane of the eighth lens is a spherical surface, the curvature radius is 70.5640mm, and the distance between the central vertex of the image plane of the eighth lens and the central vertex of the object plane of the ninth lens is 0.1 mm.
10. The high pixel panoramic camera lens of claim 1, wherein: the object plane and the image plane of the ninth lens are both planes, the center thickness of the ninth lens is 0.5500mm, the object plane and the image plane of the tenth lens are both planes, and the center thickness of the tenth lens is 0.5500 mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023248885.7U CN213780516U (en) | 2020-12-29 | 2020-12-29 | High-pixel panoramic camera lens |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023248885.7U CN213780516U (en) | 2020-12-29 | 2020-12-29 | High-pixel panoramic camera lens |
Publications (1)
Publication Number | Publication Date |
---|---|
CN213780516U true CN213780516U (en) | 2021-07-23 |
Family
ID=76900993
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202023248885.7U Active CN213780516U (en) | 2020-12-29 | 2020-12-29 | High-pixel panoramic camera lens |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN213780516U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114779447A (en) * | 2022-06-17 | 2022-07-22 | 江西晶超光学有限公司 | Optical imaging system, camera module and electronic device |
-
2020
- 2020-12-29 CN CN202023248885.7U patent/CN213780516U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114779447A (en) * | 2022-06-17 | 2022-07-22 | 江西晶超光学有限公司 | Optical imaging system, camera module and electronic device |
CN114779447B (en) * | 2022-06-17 | 2022-10-21 | 江西晶超光学有限公司 | Optical imaging system, camera module and electronic device |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN108693632A (en) | A kind of miniature wide-angle imaging lens optical system | |
CN213780516U (en) | High-pixel panoramic camera lens | |
CN214540206U (en) | High definition virtual reality camera lens | |
CN217821060U (en) | Large-angle vehicle-mounted automobile data recorder lens | |
CN214540211U (en) | High-pixel wide-angle camera lens of remote visual conference system | |
CN215764918U (en) | Lens for long-distance high-pixel intelligent projection vehicle lamp system | |
CN214540204U (en) | Vehicle-mounted forward-looking obstacle monitoring and early warning auxiliary system camera lens | |
CN214540205U (en) | Day and night visual vehicle-mounted all-round monitoring camera lens | |
CN212873042U (en) | Side-looking camera lens of high-pixel vehicle-mounted panoramic monitoring visual system | |
CN212873043U (en) | Forward-looking camera lens of high-pixel vehicle-mounted panoramic monitoring visual system | |
CN212965585U (en) | 800 ten thousand pixel autopilot looks ahead short distance monitoring camera lens | |
CN213780630U (en) | Rear-view camera lens of high-pixel vehicle-mounted panoramic monitoring visual system | |
CN209784641U (en) | Low-ghost large-aperture lens | |
CN213780514U (en) | Electronic rearview mirror camera lens | |
CN212873046U (en) | Vehicle-mounted infrared imaging camera lens of fatigue driving monitoring and early warning system | |
CN212873047U (en) | High definition streaming media electron rear-view mirror system camera lens | |
CN209858831U (en) | Ultra-high-definition low-ghost lens and module | |
CN212873045U (en) | Vehicle-mounted high-pixel infrared imaging fatigue driving monitoring control system camera lens | |
CN218446181U (en) | Short-focus fisheye lens for vehicle-mounted panoramic auxiliary driving system | |
CN209765141U (en) | Super wide-angle large-aperture fish-eye lens | |
CN210348045U (en) | Unmanned aerial vehicle camera lens of little distortion of big target surface | |
CN209765131U (en) | low-distortion vehicle-mounted rearview mirror head | |
CN218446184U (en) | Automatic three million pixel-level all-round short-focus fisheye camera lens of driving | |
CN212255856U (en) | Short-distance forward-looking camera lens of high-pixel large-aperture automatic driving assistance system | |
CN209895072U (en) | Large-aperture high-pixel wide-angle broadband response vehicle-mounted lens |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |